The nuclear electric industry has sustained some mighty blows in the United States and Western Europe in recent years. It might be reeling, but it is not out and it is not going down for the count. Taken globally, things are good.

The need to curb carbon in the air, to service a growing world population and the surging cities are impelling nuclear forward. At the annual summit meeting of the U.S. Nuclear Infrastructure Council (NIC) in Washington, this future was laid out with passion: Nuclear power is experiencing a growth spurt but not in the United States and Western Europe, except for Britain.

Nuclear demand is high where air pollution is at its worst and where economic activity is fast and furious — in Asia generally, and in China and India in particular.

Vijay Sazawal, president of IAEC Consulting, told the NIC meeting that India would be adding two reactors a year to its nuclear fleet moving forward. China and India are building half of the 60 new reactors under construction worldwide, according to Andrew Paterson of Verdigris Capital Group, which studies nuclear.

Paterson predicted world electricity demand will double by 2050 and that most of the demand would come from the megacities of Asia, Africa and Latin America. He said, “By 2030, China will have 15 megacities (10 million or more people) and 150 cities with more than 1 million people.”

Wind and solar energy, the other carbon-free electricity sources, also will grow dramatically but will be constrained by their land needs. Big cities are ill-suited to roof-mounted solar, and windmills require large acreages of open land not found near megacities.

In the United States, the shadow of the Westinghouse bankruptcy is passing over the nuclear community. How could a once-proud and dominant company get its sums so wrong that it has been forced into bankruptcy? The collapse of the company — which was building two plants with four reactors in South Carolina and Georgia, four reactors in China, and was engaged in projects in the United Kingdom and India — will be studied in business schools for generations to come. Bad management, not bad nuclear, has brought Westinghouse and its parent Toshiba to its knees.

But nuclear believers are undaunted. Nuclear advocates have a kind of religious commitment to their technology, to their science and to the engineering that turns the science into power plants.

I have been writing about nuclear since 1970, and I have featured it on my television program, “White House Chronicle,” for more than 20 years. I can attest that there is something special in the passion of nuclear people for nuclear power. They have fervor wrapped in a passion for kind of energy utopia. They believe in the great gift that nuclear offers a populous world: a huge volume of electricity.

The kernel here, the core belief, the holy grail of nuclear is wrapped up in “energy density”: how a small amount of nuclear material can produce a giant amount of electricity in a plant that has few moving parts, aside from the conventional steam turbine. As designs have evolved and plants have become “passive” in their safety systems, the things that can go wrong have been largely eliminated.

To understand energy density think this way: The average wind turbine you see along the highway turns out 2 megawatts of electricity when there is wind, a trifling amount compared to the 1,600 megawatts a new nuclear plant produces continuously — and probably will produce for 100 years before it is retired.

Asia, choking on air pollution and with huge growth, needs nuclear. America is not gasping for new generation: demand is static and there is a natural gas glut. Also, there is land aplenty for solar and wind to be installed.

But U.S. nuclear creativity, even genius, will not rest. The United States is on the frontier, pioneering a generation of wholly new reactor concepts, mostly for small modular reactors and even big new reactors, which may first be built in China and India but, like so much else, will be “thought up in America.”

At nuclear conclaves like the NIC meeting, there is sadness that the U.S. market is stagnant. But there is incandescent hope for the future.

Photo: South Africa – August 24, 2014: African woman with child collecting water from the river on the road leading to local Game Reserve.

He is generic Africa Man. You can see him everywhere, walking barefoot across the Savannah and desert landscapes. He is on a mission that gets harder as time goes on.

His mission is to find enough wood — a few dry sticks here, some roots there — to make a fire for a hot meal and to bathe. He walks and walks, adding a stick and a piece of scrub wood to the bundle carried, in the traditional way, on his head.

Generic Africa Woman is busy, too. Her mission is to draw water. She carries a container on her head, filled with water from a distant well, to make dinner — a meal of maize (corn) porridge with maybe a stew of some meat or even caterpillar — and to bathe.

African life is picturesque, but it is not pretty. Hardship is in daily attendance in much of Africa, blighted from deforestation and polluted water.

Yet Western aid has not been easily delivered. Much of it has been stolen, some of it has been misapplied and some of it has led to aid dependency.

So, as an old Africa hand (I was born in what is now Zimbabwe, and left when I was 20 years old), I was elated to learn of a new and critical partnership just announced between the Edison Electric Institute (EEI) and the U.S. Department of State’s Power Africa initiative. Electricity anywhere is the gift that gives and gives, but especially when it begins to transform lives of hard struggle to ones that are less so.

When I was a boy, the opening of a power station or the building of a power line were events that brought forth celebration. Electricity signaled a better tomorrow.

When a village — whether it is in Bolivia, India or Uganda — is electrified, good things flow. A simple hotplate replaces days of firewood collection and those who can read can do so after the sun sets: hygiene improves, education is facilitated and expectations soar.

When the shantytowns that surround Johannesburg, South Africa, were electrified, the productivity of workers who flood into the city every day went up. Simply, they were saved from the drudgery of collecting animal droppings, wood scraps and other combustible stuff to burn.

The colonizers of Africa realized the need for electricity. Hence, in my part of the continent, two great dams were built on the Zambezi River: the Kariba, between Zimbabwe and Zambia, and the Cahora Bassa in Mozambique.

As a very young reporter, I covered the construction of the Kariba Dam, and its near destruction by unusually heavy flooding, in 1957. It has been the backbone of electricity supply for Zimbabwe and Zambia for more than 50 years.

But in recent years the dam, holding back the world’s largest, man-made impoundment of water, has begun to show deterioration in the concave wall, but especially behind the wall. The outflow has been eroding the plunge pool and threatening the wall. Hundreds of millions of dollars have had to be raised internationally for remediation, which is yet to begin in earnest. If the dam should fail, about 4 million people would die downstream.

The dam also has been producing much less electricity than it had been previously due to multi-year drought in the region. Copper production in Zambia, a vital industry, has had to be curtailed because of severe electric shortages. Blackouts are routine throughout the region.

Electricity is also a problem in South Africa, the industrial and commercial giant of Africa. Delay in ordering new generation, political interference in the decision processes and other problems, stemming from the end of apartheid, have damaged the system. Blackouts are affecting South Africa’s competitive posture.

Now the government is being romanced by Russia, hoping to sell it a new nuclear plant on favorable terms. It would join the two-unit, 1,860-MW Koeberg Nuclear Power Station, which has been operating since 1984. Unfortunately emerging countries have a fascination with big, showy projects, like the national airlines and steel mills that have cost them so dearly in their post-colonial phase.

EEI and the State Department need to guide the countries of Africa to today’s energy solutions, not yesterday’s. Africa needs to turn to its most abundant resource: sunshine. In North Africa, Morocco is building the world’s largest solar installation. Way to go.

The nation is awash in natural gas and oil. This did not just happen: It is the result of a long and fruitful collaboration between the government and private industry to develop advanced hydraulic fracturing. But one corporation and one man stand out: Mitchell Energy and its late visionary founder, George Phydias Mitchell.

Whenever I point this out I get a flood of mail, often abusive, claiming that modern fracking was a natural development of the traditional stimulation techniques used in the oil patch for many decades.

I love the story of fracking because it proves a lot of truths about how things get done.

First, the private sector needed to realize there were better ways of doing things, and that scientific resources in seismic and mapping would be essential. They also needed a better drill bit.

Enter Sandia National Laboratory. Government support for advanced drilling and extraction began in 1976 and continued through the 1980s and 1990s. Commercial exploitation began in the 1990s and exploded a decade later.

Previous government ideas about fracking were a little crazy and featured huge underground explosions using nuclear devices. Yes, just a little bomb was what was proposed. There were at least two government programs aimed at nuclear stimulation of natural gas in the 1950s and 1960s: One was called Wagon Wheel and the other, Gasbuggy.

Back in those days, nuclear was popular and people wanted it to have civilian uses of all kinds, possibly as an expiation for the bomb. Anyway nuclear gas stimulation ran into an immutable problem: the gas thus produced was radioactive. Not the kind of blue flame you want on your stovetop.

The nuclear enthusiasts, led by the congressional Joint Committee on Atomic Energy and the Atomic Energy Commission withdrew. Still, many were convinced that there would be a fix if the programs would just be allowed to continue. These programs, well, bombed. There were contractors, but no private partners.

Another tale of the government going it alone in energy had a dismal end. It was a program at Los Alamos National Laboratory to produce geothermal steam in a new way. The idea was scientifically sound. Los Alamos sits on an extinct volcano and deep in the earth there are what are known, rather unscientifically, as “hot rocks.” The plan was to drill into these heated formations, pour in some water and, wham, there would be steam aplenty to drive turbines on the surface.

This program was the brainchild of Los Alamos, and I crawled over the site in the early days. Enthusiasm was abundant. It seemed to be an elegant addition to the geothermal resource base. However, there was too much government, in the form of the national lab, and not enough input from commercial geothermal operators.

After 17 years, the government funding was threatened, and I was invited to what turned out to be the burial for the project.

Finally, the government people met their commercial opposites and it didn’t go well. The scientists knew, down to the smallest microbe, life down the well. They had oodles of data but it was the wrong data. In commercial geothermal, the cardinal question is the projected life of the reservoir. Sadly, Los Alamos had not kept records from which that could be calculated. The scientists had not thought of that necessity.

Then there were questions about what to do with the brine that would be a pollution problem when discharged from the turbine on the surface of the fragile high desert. There will be no brine problem, said Los Alamos. “We’ll not bring the waste water to the surface. We’ll use a heat exchanger ,and the brine will dissipate down the well.” The commercial operators said, “That won’t work. Your temperatures are not hot enough to use a heat exchanger. You’ll have to bring the steam to the surface and deal with it there after it comes out of the turbine. We’ve tried heat exchangers down geothermal wells and the heat degradation is too great. No deal.”

This is tale a tale of huge success and dismal failure, and it has a moral: Public-private partnerships can work. The government, on its own, gets off track and screws up with our money. But private industry needs the government to shoulder the risk and provide its huge resources of capital and science to further the public interest. — ​This column was previously published in Public Utilities Fortnightly.

Nuclear power ought to have everything going for it. It has worked extremely well for more than 60 years — a fact that will be celebrated at the Nuclear Energy Institute’s annual meeting in Washington this week.

Yet there is a somber sense about civil nuclear power in the United States that its race is run; that, as in other things, the United States has lost control of a technology it invented.

Consider: There are more than 70 reactors under construction worldwide, but only five of those are in the United States. They are in Georgia, South Carolina and Tennessee. Even so, costs are rising and rest of the electric utility industry is resolutely committed to natural gas, which is cheap these days.

Once nuclear power plants are up and running, they tend do so seamlessly for decades, often operating above their original design output. It is clean power, unaffected by fuel prices, doing no damage to the air and very little to the earth, except in the mining of uranium or in immediate contact with the used radioactive fuel, when it is finally disposed of — an issue made thorny by two presidents, Jimmy Carter and Barack Obama.

Carter banned nuclear reprocessing just as it was about to be commercialized, and Obama nixed the Yucca Mountain waste repository in Nevada. The trigger for his devastating decision was the opposition of Senate Majority Leader Harry Reid (D-Nev.), thought to be acting on behalf of the gaming interests of Las Vegas. Talk about wheels of fortune — a great technology endangered by legions of slot machines.

Overlooked when the nuclear titans gather in Washington will be two of nuclear’s greatest achievements: the nuclear Navy and the transformation of medicine. The Navy is largest maritime war machine in history with its aircraft carriers that can stay on station for more than a year and submarines that can go under the icecaps and stay submerged for months.

The utility industry seeks stability in all things, ergo it is not scientifically entrepreneurial. It embraces risk reluctantly. It accepts new technology when it is delivered with limited or shared risk.

It was that way with nuclear power, where the risk was shared with the government and sometimes the vendors. Likewise, with the development of today’s aero-derivative gas turbines, the military did the work and took the risk.

In this atmosphere it is easy to forget that nuclear is not a mature technology, but that it belongs at the frontiers of science. Today’s nuclear power plant is analogous to the black rotary phone — there is room for improvement.

But as there is no competition between electricity supplying entities, the impetus must come from elsewhere: government and incentivized private companies. Some like the General Atomics Corp. in San Diego, Calif., have reaped huge benefits by exploring the scientific frontier. While they are known mostly for the Predator drone, General Atomics' work on nuclear fusion has provided the building blocks for magnetic resonance imaging and tissue welding among dozens of medical advances and has enabled the company to use fusion science to develop the electromagnetic catapults for launching aircraft from carriers. If you get to ride a levitating train, it may be because it is suspended by electromagnetic forces pioneered in nuclear research by General Atomics.

Nuclear waste – the industry hates that term because of potential energy left in spent fuel — is the sad story of nuclear: too much yesterday (ideas codified and frozen 60 years ago), not enough tomorrow.

When aviation science has been stuck in the past, it has leaped forward by offering prizes to unleash invention: the first flight across the English Channel, the first Atlantic crossing, and now the first commercial foray into space, were inspired by prizes.

The good burghers of the nuclear industry might with their government allies think of cobbling together a really big prize that will change the thinking about how we deal with used nuclear fuel. At present, there are only two options: reducing the volume by cutting it up, leaching the useful stuff out and making glass out of the rest, and burying that or everything in a place like Yucca Mountain.

Generally in life and science, when there are only two options, there is a deficit of thinking. — For the Hearst-New York Times Syndicate

Question: What is Germany most famous for these days? Answer: engineering.

In light of the worldwide respect for German engineering, precision and management, why has Chancellor Angela Merkel taken up arms against her most admired national talents?

For that is what she has done in turning Germany against its nuclear future — a future she endorsed last fall. She has closed seven reactors permanently and has the 10 others set to cease operating sequentially by 2022.

Ostensibly, she has taken this draconian action in light of the Fukushima-Dai-ichi crisis in Japan; but more especially because her conservative-led Christian Democratic Union party and its coalition members have taken a drumming from the Green party in local elections.

Since the Japanese crisis, the German Greens have mobilized large anti-nuclear demonstrations throughout Germany. Indeed, the party was formed immediately after the Three Mile Island accident in Pennsylvania in 1979. Since then it has been a force to be reckoned with in German politics — always there, but sometimes more vocal than others.

To German commentators, Merkel’s about-face speaks of just one thing: opportunism. Fearing the dissolution of her fragile coalition, she gave the Greens what they wanted: complete surrender on the nuclear issue.

While buying a political-life extension, Merkel has cast a shadow over Germany’s future as the economic engine of Europe. Without nuclear, Germany will face severe economic and even environmental challenges ahead.

Merkel says that the nuclear slack will be taken up by boosting its renewable energy sources – wind, solar and hydro — from 17 percent of the mix today to double that. Nuclear has been providing 25 percent of German electricity. It would take about 20,000 windmills alone to replace that.

Also, Merkel says, electricity consumption will be cut by 10 percent.

Quite how any of this will be achieved is uncertain. Already, conservation is a high priority in Germany and alternative energy has been a high priority for years.

Most likely there will be electricity shortages in parts of the country, mostly in the south; there will be more brown coal burned; and Russia will further extend its energy hegemony over Northern and Eastern Europe by upping the amount of gas provided to Germany for electricity production. Another ironic likelihood is that as Germany will have to import more electricity and it will have to do so from countries with a large nuclear base like France.

The three German utilities that own various nuclear plants are in a state of shock, even disbelief. One, Eon, already is talking about billions of euros of compensation for loss of business and capital goods. The others are likely to follow suit. There is likely to be litigation in the German and the European courts.

Early polls show that while the German people do not want nuclear, they also see the Merkel move as political and cynical. One poll found that 70 percent of the electorate found the chancellor’s actions to be opportunistic.

First calculations, not denied by Merkel’s administration, expect electricity prices – already among the highest in Europe – to bound by nearly 20 percent.

The untold damage is to the concept of the invulnerability of German engineering – that something special that has made German cars the gold standard of the world. If Germany does not believe that it can engineer its reactors to levels of safety and manage them with Prussian zeal, then what has happened to the German ethic?

Brown coal — the dirtiest there is, being somewhere between bituminous coal and peat in its makeup — is the default position in German energy. Dirty to burn but plentiful, it may now make a comeback with severe environmental consequences for Germany and its neighbors.

When Merkel talks about alternatives, she is really talking about wind and at thousands more turbines will now have to be added in a country with limited land area for diffuse energy sources.

Although the Germans have been more successful than thought possible with solar, it remains a cold, gray northern country that requires a lot of reliable affordable electricity to keep its place in the global economy. Merkel appears to have put her own future above that of her country. –For the Hearst-New York Times Syndicate

In the Dr. Dolittle children’s books, written by Hugh Lofting, there appears a strange creature called the pushmi-pullyu. It is a gazelle-unicorn cross with two heads (one of each) at opposite ends of its body. Push-pull is its problem.

One might have thought that the lovable creature, featured in two movie versions of the classic series, might have been interred with it inventor. Alas, no. It has been seen around the White House, haunting many of President Obama’s policies — stimulate and cut; withdraw and fight on (Afghanistan); propose and abandon (Guantanamo); and not least the mixed signals he sends on energy, especially nuclear energy.

Obama often endorses nuclear power, but he has frustrated its development in the United States, and wasted $10 billion, by reversing longstanding U.S. policy at Yucca Mountain in Nevada. After exhaustive scientific analysis, and some of the best civil engineering on earth, he came out against Yucca in his presidential campaign. The nuclear waste repository is being abandoned without an alternative site. Not having one makes nuclear a harder sell to the public.

Now there is fear throughout the electric industry that the energy-loving administration is about to deal a body blow to the energy generators.

The Environmental Protection Agency (EPA) is about to issue a rule that would force more than 400 hundred electric-generating plants, along with other industrial entities, which use river, bay or ocean water for cooling, to abandon decades-old practices and build expensive, unsightly cooling towers. The nuclear operators, in particular, feel vulnerable because environmentalists often attack nuclear power in roundabout ways.

The legal challenge to using river and bay water goes back to the Clean Water Act of 1972, as amended, which, in the event of industrial use of water for cooling demands the use of “best available technology” to reduce the impact marine life, especially fish.

EPA is on the threshold, somewhat delayed, of publishing new regulations which it is believed will force nuclear power plants using once-through cooling to abandon it and install cooling towers. Pressure on the agency to revisit the seemingly settled, once-through practice in plants has come as a result of pressure from the Waterkeeper Alliance, Riverkeeper and other water-use advocacy groups.

According to the Nuclear Energy Institute, a lobbying group for nuclear power, it would cost $95 billion to build all the requested cooling towers.

Nuclear groups feel they are most vulnerable because of the longstanding opposition to nuclear power by many environmental groups. If the economics of the times preclude backfitting many cooling towers, the threat that new plants will be forced backward is very real.

But some observers believe that the defenders of waterways may be hoisted this time on their own petard.

Cooling towers are those giant structures of the kind shown around the world at the time of the Three Mile Island accident. They are also employed by other power plants, mostly coal-burners. And they are very old technology.

Over the decades, the engineering of water intakes has evolved from a simple, large pipe with a screen on it to complex layers of baffles and other devices to keep fish in the main stream of a river and away from away from the intakes. Other devices involve lights, music, and a conveyor which returns the fish to their habitat in buckets on a wheel. Another solution is to sink wells under the surface of the water, pumping only water which has been screened naturally by the bottom of the waterway and is free of fish and most microbial life.

In short “best available technology” may now be at the intake, not in the towers which embody technology dating from the 1920s.

Also, towers present an environmental problem. In their vapor clouds they distribute all the impurities that might be in the water, including heavy concentrations of salt. At the Indian Point nuclear plant on the Hudson River in New York, the plumes the proposed cooling towers will contain some sea salt and river impurities, the operators claim. Worse the operators claim, the visual impact on the beautiful Hudson Valley will be unacceptable.

There is an irony here: For a long time, the cry “not in my backyard” belonged to the environmentalists. Now it can be heard from local communities, like Buchanan, near the Indian Point nuclear plant.

The worm may be turning; but nonetheless, the utilities fear EPA and the years of litigation and expense which is at hand. – For the Hearst-New York Times Syndicate

From somewhere–inside the White House or the Department of Energy–President Obama is getting some pretty awful advice. It’s bad enough that he’s been persuaded that there’s a Nirvana Land of windmills and sunbeams in the future of electricity. But much more gravely in halting drilling in the Gulf of Mexico, he’s committing a fearsome folly.

If exploration and drilling in the Gulf doesn’t resume and gets caught up in punitive new rules, Obama, or his successor, will find the price of gasoline high (probably more than $5 a gallon) and military action against Iran will be proscribed.

It goes like this: After 18 months the supply of replacement oil from the Gulf dries up, due to the normal decline in production from old wells. Very soon, this loss exceeds 1 million barrels a day and begins to increase the world oil price,

World oil production today is 86.5 million barrels per day; of this, the United States gulps down an amazing 20 million barrels per day. This delicate balance, helped by the global recession, keeps the price bouncing between $70 and $80 per barrel.

Worst case is not only do we lose production in the Gulf, but any global upset–such as military action in Iran–will stress this oil production-demand balance further. Result: price rises. Political solution: none.

The folly of the Obama action is that every new hole drilled in deep water is going to be safer-than-safe.

There’s a well-known pattern: Disasters produce an aftermath of safety. The nuclear industry thought it was safe before the Three Mile Island meltdown, but it went back to the drawing board and produced new institutions for safety monitoring and study, as well as revised the very idea of defense in-depth.

The Obama caution is the danger, not the possibility of another spill.

The second energy disaster in the making is with electricity. The Obama administration has signed on to a vague idea, pushed by environmentalists and post-industrial schemers: It goes by the appropriately loose title of “alternative energy.”

In real-world terms, alternative energy can be narrowed to some solar

and wind. In fact, the only mature technology is wind. It works fine when the wind is blowing. The heat wave in the Eastern states in the past week makes the point: The wind doesn’t blow when it’s most needed.

There’s nothing wrong with wind, except that its most passionate advocates often favor it not for its own sake but for what it is not: nuclear power. Paranoia over nuclear power–always the first choice of the world’s utilities, if all things are equal–is a part of the cultural-political landscape in America.

Faced with this, the Obama administration has saddled up two horses and invited the nuclear industry to ride both as they diverge. It has thrown away the $11 billion spent on the first national nuclear-waste repository at Yucca Mountain in Nevada, even as it has offered loan guarantees for new reactors.

Coming down the pike is a surge, a really huge surge, in electricity demand as plug-in hybrid cars and pure electric cars are deployed.

The plan–if you can call it that–is that the load of new uses will be spread by “smart meters” on the “smart grid,” and this will direct or coerce consumers to charge their cars in the middle of the night.

Fat chance. If consumers were that financially or morally conscious, they’d long since have cut their electric loads and driven smaller cars.

Want to be politically unpopular? Start telling people when they can refuel their cars. That’s known around the Tea Party circuit and elsewhere as government intervention.

Do you take yours with sugar? –For the Hearst-New York Times Syndicate

White House Chronicle on Social

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